Abstract
Business operations have entered the digital era in which artificial intelligence (AI), machine learning (ML) and blockchain (BKC) have emerged as major disruptive forces. In AI and ML, deep learning is a critical area. In this paper, we aim to investigate how deep learning and BKC together can help improve business operations. We first examine the operations research (OR) literature related to the applications of deep learning for business operations. Then, we discuss the prior studies on using BKC for operations. After that, we explore deep learning’s applications for BKC, BKC’s applications for deep learning as well as how deep learning and BKC have been used together for business operations. Then, we construct a research framework and propose future research directions.
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Notes
Note that forecasting is a well-established area in which deep learning as well as other methods are applied. For example, extreme learning machines is one popular method (Sun et al. 2008).
References
Akter, S., Michael, K., Uddin, M. R., McCarthy, G., & Rahman, M. (2020). Transforming business using digital innovations: The application of AI, blockchain, cloud and data analytics. Annals of Operations Research. https://doi.org/10.1007/s10479-020-03620-w
Baldominos, A., & Saez, Y. (2019). Coin. AI: A proof-of-useful-work scheme for blockchain-based distributed deep learning. Entropy, 21(8), 723
Blumenstock, G., Lessmann, S., & Seow, H. V. (2020). Deep learning for survival and competing risk modelling. Journal of the Operational Research Society. https://doi.org/10.1080/01605682.2020.1838960
Cai, Y. J., Choi, T. M., & Zhang, J. (2020). Platform supported supply chain operations in the blockchain era: Supply contracting and moral hazards. Decision Sciences. https://doi.org/10.1111/deci.12475
Cai, Z. (2020). Usage of deep learning and blockchain in compilation and copyright protection of digital music. IEEE Access, 8, 164144–164154
Chiu, C. H., & Choi, T. M. (2016). Supply chain risk analysis with mean-variance models: A technical review. Annals of Operations Research, 240, 489–507
Chiu, C. H., Choi, T. M., & Tang, C. S. (2011). Price, rebate, and returns supply contracts for coordinating supply chains with price-dependent demands. Production and Operations Management, 20(1), 81–91
Chiu, C. H., Choi, T. M., Dai, X., Shen, B., & Zheng, J. H. (2018). Optimal advertising budget allocation in luxury fashion markets with social influences: A mean-variance analysis. Production and Operations Management, 27(8), 1611–1629
Chod, J., Trichakis, N., Tsoukalas, G., Aspegren, H., & Weber, M. (2020). On the financing benefits of supply chain transparency and blockchain adoption. Management Science. https://doi.org/10.1287/mnsc.2019.3434
Choi, T. M. (2018). A system of systems approach for global supply chain management in the big data era. IEEE Engineering Management Review, 46(1), 91–97
Choi, T. M. (2019). Blockchain-technology-supported platforms for diamond authentication and certification in luxury supply chains. Transportation Research Part e: Logistics and Transportation Review, 128, 17–29
Choi, T. M. (2020a). Creating all-win by blockchain technology in supply chains: Impacts of agents’ risk attitudes towards cryptocurrency. Journal of the Operational Research Society. https://doi.org/10.1080/01605682.2020.1800419
Choi, T. M. (2020b). Financing product development projects in the blockchain era: Initial coin offerings versus traditional bank loans. IEEE Transactions on Engineering Management. https://doi.org/10.1109/TEM.2020.3032426
Choi, T. M. (2020c). Supply chain financing using blockchain: Impacts on supply chains selling fashionable products. Annals of Operations Research. https://doi.org/10.1007/s10479-020-03615-7
Choi, T. M., Feng, L. P., & Li, R. (2020). Information disclosure structure in supply chains with rental service platforms in the blockchain technology era. International Journal of Production Economics, 221, 107473
Choi, T. M., Gao, J., Lambert, J. H., Ng, C. K., & Wang, J. (2017). Optimization and control for systems in the big-data era: Theory and applications. New York: Springer.
Choi, T. M., Guo, S., Liu, N., & Shi, X. (2020). Optimal pricing in on-demand-service-platform-operations with hired agents and risk-sensitive customers in the blockchain era. European Journal of Operational Research, 284(3), 1031–1042
Choi, T. M., Guo, S., & Luo, S. (2020). When blockchain meets social-media: Will the result benefit social-media-analytics for supply chain operations management? Transportation Research Part E Logistics and Transportation Review, 135, 101860
Choi, T. M., & Lambert, J. H. (2017). Advances in risk analysis with big data. Risk Analysis, 37(8), 1435–1442
Choi, T. M., & Luo, S. (2019). Data quality challenges for sustainable fashion supply chain operations in emerging markets: Roles of blockchain, government sponsors and environment taxes. Transportation Research Part e: Logistics and Transportation Review, 131, 139–152
Choi, T. M., & Ouyang, X. (2021). Initial coin offerings for blockchain based product provenance authentication platforms. International Journal of Production Economics, 233, 107995
Choi, T. M., Wallace, S. W., & Wang, Y. (2018). Big data analytics in operations management. Production and Operations Management, 27(10), 1868–1883
Choi, T. M., Wen, X., Sun, X., & Chung, S. H. (2019). The mean-variance approach for global supply chain risk analysis with air logistics in the blockchain technology Era. Transportation Research Part e: Logistics and Transportation Review, 127, 178–191
Cretarola, A., & Figà-Talamanca, G. (2019). Detecting bubbles in Bitcoin price dynamics via market exuberance. Annals of Operations Research, 5, 110
Dai, Y., Xu, D., Maharjan, S., Chen, Z., He, Q., & Zhang, Y. (2019). Blockchain and deep reinforcement learning empowered intelligent 5G beyond. IEEE Network, 33(3), 10–17
Dai, Y., Xu, D., Zhang, K., Maharjan, S., & Zhang, Y. (2020). Deep reinforcement learning and permissioned blockchain for content caching in vehicular edge computing and networks. IEEE Transactions on Vehicular Technology, 69(4), 4312–4324
Dutta, P., Choi, T. M., Somani, S., & Butala, R. (2020). Blockchain technology in supply chain operations: Applications, challenges and research opportunities. Transportation Research Part E Logistics and Transportation Review, 142, 102067
Fan, Z. P., Wu, X. Y., & Cao, B. B. (2020). Considering the traceability awareness of consumers: Should the supply chain adopt the blockchain technology? Annals of Operations Research. https://doi.org/10.1007/s10479-020-03729-y
Feng, J., Yu, F. R., Pei, Q., Chu, X., Du, J., & Zhu, L. (2019). Cooperative computation offloading and resource allocation for blockchain-enabled mobile edge computing: A deep reinforcement learning approach. IEEE Internet of Things Journal, 7(7), 6214–6228
Ferrag, M. A., & Maglaras, L. (2019). DeepCoin: A novel deep learning and blockchain-based energy exchange framework for smart grids. IEEE Transactions on Engineering Management, 67(4), 1285–1287
Fischer, T., & Krauss, C. (2018). Deep learning with long short-term memory networks for financial market predictions. European Journal of Operational Research, 270(2), 654–669
Grover, P., Kar, A.K,, Dwivedi, YK. (2020). Understanding artificial intelligence adoption in operations management: insights from the review of academic literature and social media discussions. Annals of Operations Research, published online.
Guha, S., & Kumar, S. (2018). Emergence of big data research in operations management, information systems, and healthcare: Past contributions and future roadmap. Production and Operations Management, 27(9), 1724–1735
He, Y., Wang, Y., Qiu, C., Lin, Q., Li, J., & Ming, Z. (2020). Blockchain-based edge computing resource allocation in IoT: A deep reinforcement learning approach. IEEE Internet of Things Journal. https://doi.org/10.1109/JIOT.2020.3035437
Hottung, A., Tanaka, S., & Tierney, K. (2020). Deep learning assisted heuristic tree search for the container pre-marshalling problem. Computers and Operations Research, 113, 104781
Keshk, M., Turnbull, B., Moustafa, N., Vatsalan, D., & Choo, K. K. R. (2019). A privacy-preserving-framework-based blockchain and deep learning for protecting smart power networks. IEEE Transactions on Industrial Informatics, 16(8), 5110–5118
Khan, M. Z., Khan, M. U., Irshad, O., & Iqbal, R. (2020). Deep learning and blockchain fusion for detecting driver’s behavior in smart vehicles. Internet Technology Letters, 3(6), 119
Khan, P. W., Byun, Y. C., & Park, N. (2020). IoT-Blockchain enabled optimized provenance system for food industry 4.0 using advanced deep learning. Sensors, 20(10), 2990
Kim, A., Yang, Y., Lessmann, S., Ma, T., Sung, M. C., & Johnson, J. E. (2020). Can deep learning predict risky retail investors? A case study in financial risk behavior forecasting. European Journal of Operational Research, 283(1), 217–234
Koutmos, D. (2019). Market risk and Bitcoin returns. Annals of Operations Research, 2, 115
Kraus, M., Feuerriegel, S., & Oztekin, A. (2020). Deep learning in business analytics and operations research: Models, applications and managerial implications. European Journal of Operational Research, 281(3), 628–641
Kumar, A., Shankar, R., & Aljohani, N. R. (2019). A big data driven framework for demand-driven forecasting with effects of marketing-mix variables. Industrial Marketing Management, in press.
Kumar, A., Shankar, R., Choudhary, A., & Thakur, L. S. (2016). A big data MapReduce framework for fault diagnosis in cloud-based manufacturing. International Journal of Production Research, 54(23), 7060–7073
Kumar, A., Shankar, R., & Thakur, L. S. (2018). A big data driven sustainable manufacturing framework for condition-based maintenance prediction. Journal of Computational Science, 27, 428–439
Li, H. (2020). Piano automatic computer composition by deep learning and blockchain technology. IEEE Access, 8, 188951–188958
Li, G., Li, L., Choi, T. M., & Sethi, S. P. (2020). Green supply chain management in Chinese firms: Innovative measures and the moderating role of quick response technology. Journal of Operations Management, 66(7–8), 958–988
Li, M., Yu, F. R., Si, P., Wu, W., & Zhang, Y. (2020). Resource optimization for delay-tolerant data in blockchain-enabled IoT with edge computing: A deep reinforcement learning approach. IEEE Internet of Things Journal, 7(10), 9399–9412
Lin, H., Garg, S., Hu, J., Kaddoum, G., Peng, M., & Hossain, M. S. (2020). Blockchain and deep reinforcement learning empowered spatial crowdsourcing in software-defined internet of vehicles. IEEE Transactions on Intelligent Transportation Systems. https://doi.org/10.1109/TITS.2020.3025247
Liu, C. H., Lin, Q., & Wen, S. (2018). Blockchain-enabled data collection and sharing for industrial IoT with deep reinforcement learning. IEEE Transactions on Industrial Informatics, 15(6), 3516–3526
Liu, M., Teng, Y., Yu, F. R., Leung, V. C., & Song, M. (2020). A deep reinforcement learning-based transcoder selection framework for blockchain-enabled wireless D2D transcoding. IEEE Transactions on Communications, 68(6), 3426–3439
Liu, M., Yu, F. R., Teng, Y., Leung, V. C., & Song, M. (2019). Performance optimization for blockchain-enabled industrial Internet of Things (IIoT) systems: A deep reinforcement learning approach. IEEE Transactions on Industrial Informatics, 15(6), 3559–3570
Luo, J., Chen, Q., Yu, F. R., & Tang, L. (2020). Blockchain-enabled software-defined industrial internet of things with deep reinforcement learning. IEEE Internet of Things Journal, 7(6), 5466–5480
Luo, S., & Choi, T. M. (2021). Operational research for technology-driven supply chains in the industry 4.0 Era: recent development and future studies. Asia-Pacific Journal of Operational Research, 2, 169
Luo, S., Lin, X., & Zheng, Z. (2019). A novel CNN-DDPG based AI-trader: Performance and roles in business operations. Transportation Research Part e Logistics and Transportation Review, 131, 68–79
Mai, F., Tian, S., Lee, C., & Ma, L. (2019). Deep learning models for bankruptcy prediction using textual disclosures. European Journal of Operational Research, 274(2), 743–758
Nguyen, D. C., Pathirana, P. N., Ding, M., & Seneviratne, A. (2020). Privacy-preserved task offloading in mobile blockchain with deep reinforcement learning. IEEE Transactions on Network and Service Management, 17(4), 2536–2549
Qiu, C., Ren, X., Cao, Y., & Mai, T. (2020). Deep reinforcement learning empowered adaptivity for future blockchain networks. IEEE Open Journal of the Computer Society. https://doi.org/10.1109/OJCS.2020.3010987
Qiu, C., Yu, F. R., Yao, H., Jiang, C., Xu, F., & Zhao, C. (2018). Blockchain-based software-defined industrial internet of things: A dueling deep Q-learning approach. IEEE Internet of Things Journal, 6(3), 4627–4639
Qiu, X., Liu, L., Chen, W., Hong, Z., & Zheng, Z. (2019). Online deep reinforcement learning for computation offloading in blockchain-empowered mobile edge computing. IEEE Transactions on Vehicular Technology, 68(8), 8050–8062
Rathore, S., Pan, Y., & Park, J. H. (2019). BlockDeepNet: A blockchain-based secure deep learning for IoT network. Sustainability, 11(14), 3974
Rathore, S., & Park, J. H. (2020). A blockchain-based deep learning approach for cyber security in next generation industrial cyber-physical systems. IEEE Transactions on Industrial Informatics. https://doi.org/10.1109/TII.2020.3040968
Sharma, M., Pant, S., Kumar, S. D., Datta, G. K., Vashishth, V., & Chhabra, A. (2020). Enabling security for the Industrial Internet of Things using deep learning, blockchain, and coalitions. Transactions on Emerging Telecommunications Technologies, 7, e4137
Singh, M., Aujla, G. S., & Bali, R. S. (2020). A deep learning-based blockchain mechanism for secure Internet of drones environment. IEEE Transactions on Intelligent Transportation Systems. https://doi.org/10.1109/TITS.2020.2997469
Singh, M., Aujla, G. S., Singh, A., Kumar, N., & Garg, S. (2020). Deep learning based blockchain framework for secure software defined industrial networks. IEEE Transactions on Industrial Informatics, 17(1), 606–616
Sun, Z. L., Choi, T. M., Au, K. F., & Yu, Y. (2008). Sales forecasting using extreme learning machine with applications in fashion retailing. Decision Support Systems, 46(1), 411–419
Sun, X., Chung, S. H., Choi, T. M., Sheu, J. B., & Ma, H. L. (2020). Combating lead-time uncertainty in global supply chain’s shipment-assignment: Is it wise to be risk-averse? Transportation Research Part b: Methodological, 138, 406–434
Sun, X., Xu, W., Jiang, H., & Wang, Q. (2020). A deep multitask learning approach for air quality prediction. Annals of Operations Research, 6, 1–29
Villena, V. H. (2019). The missing link? The strategic role of procurement in building sustainable supply networks. Production and Operations Management, 28(5), 1149–1172
Villena, V. H., & Gioia, D. A. (2018). On the riskiness of lower-tier suppliers: Managing sustainability in supply networks. Journal of Operations Management, 64, 65–87
Wang, J., Zhao, L., & Huchzermeier, A. (2020). Operations-finance interface in risk management: Research evolution and opportunities. Production and Operations Management, 2, 110
Wang, S., Zhen, L., Xiao, L., & Attard, M. (2020). Data-driven intelligent port management based on blockchain. Asia-Pacific Journal of Operational Research, 20, 40017
Weng, J., Weng, J., Zhang, J., Li, M., Zhang, Y., & Luo, W. (2019). Deepchain: Auditable and privacy-preserving deep learning with blockchain-based incentive. IEEE Transactions on Dependable and Secure Computing. https://doi.org/10.1109/TDSC.2019.2952332
Xie, M., Li, H., & Zhao, Y. (2020). Blockchain financial investment based on deep learning network algorithm. Journal of Computational and Applied Mathematics, 372, 112723
Xu, X. P., & Choi, T. M. (2021). Online-offline supply chain operations with platforms under the cap-and-trade regulation in the blockchain Era. Working paper.
Yang, L., Li, M., Si, P., Yang, R., Sun, E., & Zhang, Y. (2020). Energy-efficient resource allocation for blockchain-enabled industrial internet of things with deep reinforcement learning. IEEE Internet of Things Journal. https://doi.org/10.1109/JIOT.2020.3030646
Zekić-Sušac, M., Knežević, M., & Scitovski, R. (2019). Modeling the cost of energy in public sector buildings by linear regression and deep learning. Central European Journal of Operations Research. https://doi.org/10.1007/s10100-019-00643-y
Zhang, D., Yu, F. R., & Yang, R. (2019). Blockchain-based distributed software-defined vehicular networks: A dueling deep Q - learning approach. IEEE Transactions on Cognitive Communications and Networking, 5(4), 1086–1100
Zhang, J., Choi, T. M., & Cheng, T. C. E. (2020). Stochastic production capacity: A bane or a boon for quick response supply chains. Naval Research Logistics, 67(2), 126–146
Zhang, J., Sethi, S. P., Choi, T. M., & Cheng, T. C. E. (2020). Supply chains involving a mean-variance-skewness-kurtosis newsvendor: Analysis and coordination. Production and Operations Management, 29(6), 1397–1430
Zhang, R., Yu, F. R., Liu, J., Huang, T., & Liu, Y. (2020). Deep reinforcement learning (DRL)-based device-to-device (D2D) caching with blockchain and mobile edge computing. IEEE Transactions on Wireless Communications, 19(10), 6469–6485
Zhang, R., Yu, F. R., Liu, J., Xie, R., & Huang, T. (2020). Blockchain-incentivized D2D and mobile edge caching: A deep reinforcement learning approach. IEEE Network, 34(4), 150–157
Zheng, K., Zhang, Z., & Gauthier, J. (2020). Blockchain-based intelligent contract for factoring business in supply chains. Annals of Operations Research. https://doi.org/10.1007/s10479-020-03601-z
Acknowledgements
Suyuan Luo acknowledges the support from the Ministry of Education in China (MOE) Project of Humanities and Social Sciences (Grant Number: 20YJC630092).
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Luo, S., Choi, TM. Great partners: how deep learning and blockchain help improve business operations together. Ann Oper Res 339, 53–78 (2024). https://doi.org/10.1007/s10479-021-04101-4
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DOI: https://doi.org/10.1007/s10479-021-04101-4